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The Global ETD Search service is a free service for researchers
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Showing 1 to 10 of 573 (0.034 seconds)Spelling suggestions: "subject:"[een] MAGNETIC FIELD"" "subject:"[enn] MAGNETIC FIELD""
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Investigations towards producing a very sensitive Faraday magnetometerCarr-Brion, T. J. F. January 1988 (has links)
No description available.
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| 2 |
Magnetostratigraphy of Early Palaeogene sediments from N.W. EuropeAli, Jason Richard January 1988 (has links)
No description available.
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| 3 |
Characterisation of low energy ions observed near and during the substorm expansion phase onsetBrown, Wayne January 1998 (has links)
No description available.
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| 4 |
Thermomagnetic Effects in Antimony at 4.2 [degrees]KTaaffe, Thomas J. 08 1900 (has links)
The purpose of this investigation was to study the thermoelectric effects in a single crystal of antimony at liquid-helium temperatures.
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| 5 |
Some effects of magnetic fields on energy deposition in tissue for low-let radiationsIsmail, A. K. A. A. January 1986 (has links)
The presence of a moderately strong magnetic field, uniform and static, in the irradiated medium modifies the spatial distribution of events. The imposition of a magnetic field produces elecron helices, characterised by their radii and pitches. The differential and integral distribution of track lengths, corresponding to electrons slowing down in water in a magnetic field, have been computed as function of radii and pitches for 200 kVp X-rays and for <sup>60</sup> Co gamma-rays. Theoretical work has shown that the probability of energy deposition in a smaller volume of the absorbing medium has been significantly increased as a result of the presence of a magnetic field during photon irradiation. The distributions of track lengths as function of electron radii and pitches have been studied in strong magnetic fields (1 - 20 Tesla). The trajectories of an electron moving in water for different emission angles (up to π/2) and for magnetic fields of 5 and 10 Tesla, have been computed. The data for stopping powers used in this study, cover electron energies of 30 eV to 1200 keV (initial energy). In the presence of a magnetic field, each electron spiral has enclosed a conical volume. As the magnetic field increases, so the volume enclosed by the spiral decrease resulting in a substantial increase in the number of hits (events) compared with events in the same volume in the absence of a magnetic field. The experimental work started with the study of the characteristics of a spherical walled proportional counter. The frequency density, y.f(y), energy probability density, y^2f(y), distributions and their averages overline Y_F and overline Y<sub>D</sub> respectively, have been computed on the basis of the pulse height distribution of low-LET radiation. Gamma rays from <sup>137</sup>Cs and <sup>60</sup>Co have been used with and without a magnetic field. Transverse magnetic fields of 0.0304, 0.13, 0.24 and 0.34 Tesla as well as a longitudinal magnetic field of 0.0304 Tesla have been used in microdosimetric measurements. An average sphere diameter of 2 μm has been simulated for the purpose. In the presence of the transverse magnetic fields, an increase of up to ~ 45% and ~ 78% has been obtained in the values of overline Y_F and overline Y_D respectively for ^137Cs gamma rays. For ^60Co gamma rays the values of both overline Y_F and overline Y_D increase by up to about 97%. For the longitudinal magnetic field when compared with the corresponding transversal magnetic field, a substantial increase in the value of overline Y_F has been found for ^137Cs gamma rays and a less significant increase for ^60Co gamma rays. Also, a significant increase in overline Y_D has been obtained for both indirectly ionizing radiations.
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| 6 |
Magnetoresistive devices with high coercivity biasing filmsMcCullough, A. M. January 1987 (has links)
No description available.
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| 7 |
Development of the shear wave magnetometerKilby, Charles F. January 1992 (has links)
No description available.
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| 8 |
Megagauss 2.0 : a 10 capacitor system for production of megagauss fields for laser plasma experimentsLewis, Sean Matthew 21 October 2014 (has links)
High magnetic fields greater than 100 Tesla applied to laser generated plasmas can generate unique and interesting conditions. High power laser systems at the University of Texas in the Center for Higher Energy Density Sciences readily produce short lived fusion plasmas in cluster targets. A strong magnetic field could increase fusion neutron yield and plasma confinement while providing a unique plasma physics environment. For this purpose, Sandia National Laboratories in collaboration with the University of Texas designed and constructed a pulsed power device to produce more than 2 megaamperes. This current produces strong magnetic fields in small coils with duration on the order of microseconds. At the University of Texas, tests with this device determined the operational characteristics. I will describe the behavior of this device with currents of approximately a megaamp and magnetic fields of more than 60 Tesla. Emphasis is placed on understanding the behavior of the fields and coils. / text
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Particle features at the equatorward edge of the cuspTopliss, Stephen Mark January 2001 (has links)
No description available.
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| 10 |
An integrated approach to silicon transducers : magnetic field as an exampleCooper, A. R. January 1985 (has links)
No description available.
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